KR960003993Y1 - Noise detecting circuit in radio telephone - Google Patents

Abstract

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Description

Noise Force Detection Circuit of Wireless Telephone

1 is a circuit diagram of a conventional noise force detection circuit.

2 is a circuit diagram of a noise force detection circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

DC1, DC2: Audio Signal Detection Circuit 1: High Pass Filter

2 amplification part 3 rectification part

4: reference sense and control unit 5: voltage detection unit

6: alarm unit

The present invention relates to a radiotelephone, and in particular, the sensitivity of the radiotelephone is detected so that an alarm occurs when the reception sensitivity is changed due to a change in the distance between the fixed device and the portable device of the radiotelephone and the reception sensitivity is weak. It is about a circuit.

FIG. 1 is a circuit diagram of a conventional noise force detection circuit. As shown in the drawing, a resistor R1 is connected to an audio signal output AO of an audio signal detection circuit DC1, and a filter amplifier input terminal FI is shown. To the capacitor (C1), the capacitor (C2) to the filter amplifier output terminal (FO), the resistor (R3) between the filter amplifier input terminal (FI) and the filter amplifier output terminal (FO), and then the capacitor ( C3), connect resistor R4 to the squelch input terminal SI, connect diodes D1 and D2, resistor R5, and capacitor C4 to the squelch output terminal SO, and connect the light emitting diode to the squelch output terminal SO. It is configured by connecting PD1.

The audio signal detected from the FM signal received from the antenna and output from the audio signal output terminal AO of the audio signal detection circuit DC1 is passed through the resistor R1 to the filter amplifier input terminal FI through the capacitor C1. do. Only the noise signal component of the input audio signal is band-filtered and output to the filter amplifier output terminal FO. The noise signal output from the filter amplifier output terminal FO is full-wave rectified by the capacitor C3 and the diodes D1 and D2 and then input to the squelch input terminal SI through the resistor R4. The noise signal input to the squelch input terminal SI is output to the squelch output terminal SO through the squelch circuit inside the audio signal detection circuit DC1 and input to the light emitting diode PD1. At this time, when the noise signal force of the input audio signal increases, a signal is output by the action of the squelch circuit inside the audio signal detection circuit DC1 to emit light to the light emitting diode PD1 to alert the user.

The conventional noise force detection circuit may operate on the audio signal detection circuit DC1 having a squelch circuit therein, but may not be applicable to an audio signal detection circuit having no squelch circuit.

The present invention has been devised in view of the above problems, and is connected to an audio signal detection circuit that does not have a squelch circuit therein and detects noise forces, so as to warn the user of the state in case of severe noise forces. The purpose is to provide a sensing circuit.

The noise force detection circuit of the wireless telephone according to the present invention for achieving the above object is a high pass filter for passing a high frequency component of the signal output from the audio signal output terminal of the audio signal detection circuit, and from the high pass filter An amplifying unit for amplifying a signal, a rectifying unit for half-wave rectifying a signal from the amplifying unit, a reference sensitivity adjusting unit for adjusting a reference sensitivity of a noise force by adjusting a DC component voltage level of the signal rectified in the rectifying unit; A voltage detector which detects a voltage change that changes according to the operation of the rectifier and inputs it to the comparator input terminal of the audio signal detection circuit, and outputs the voltage change from the comparator output terminal of the audio signal detection circuit when the noise force increases. Drives light-emitting diodes by signal to indicate high noise Characterized in that it comprises an alarm for generating an alarm for.

Hereinafter, the noise force detection circuit of the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of a noise force detection circuit according to the present invention, and as shown in the figure, a capacitor C2 connected to an audio signal output terminal A0 of an audio signal detection circuit DC2 having a comparator circuit therein. A high pass filter 1 consisting of C3 and a resistor R3, an amplifier 2 consisting of resistors R4 to R9, capacitors C4 to C6, and transistors Tr1 and Tr2, Rectifier 3 composed of R10 and diode D1, reference sensitivity controller 4 composed of resistors R11 to R13 and variable resistor VR, and a voltage comprised of resistor R2 and capacitor C1. It consists of the detection part 5 and the alarm part 6 which consists of a resistor R1 and the light emitting diode PD2.

The audio signal detected from the FM signal received through the antenna is output from the audio signal output terminal AO of the audio signal detection circuit DC2, and this audio signal is transmitted through a high pass filter unit 1 (noise component). ) Is filtered and input to the base of the transistor Tr1 of the medium width part 2. The signal output from the emitter of the transistor Tr1 is input to the base of the transistor Tr2 through the capacitor C5, amplified by the transistor Tr2, and passed through the capacitor C6, whereby the amplified noise signal is point B. Will appear on the screen. DC signal is superimposed by the variable resistor VR and half-wave rectified by the diode D1. Since the diode D1 is connected in the reverse direction, the signal is turned off in the + part and turned on in the-part. Becomes When the diode D1 is turned on, the voltage at the point A of the voltage detector 5 becomes lower than when the diode D1 is turned off. This voltage variation is input to the comparator input terminal CI of the audio signal detection circuit DC2. When the noise fluctuates and the voltage fluctuates severely, a signal corresponding to the voltage fluctuation is output from the comparator output terminal CO and sent to the light emitting diode PD2 of the alarm unit 6 so that the light emitting diode PD2 is turned on to give an alarm. do. When the variable resistance VR of the reference sensitivity controller 4 is adjusted, the DC component voltage level of the signal half-wave rectified by the diode D1 is adjusted to adjust the voltage fluctuation level of the point A of the voltage detector 5 to emit light. The reference sensitivity of the noise forces necessary to drive the diode PD2 can be adjusted.

The noise force detection circuit according to the present invention can be applied to an audio signal detection circuit without a squelch circuit, thereby reducing the manufacturing cost of the wireless telephone.

Claims (1)

A radiotelephone comprising an audio signal detection circuit (DC2) having a comparator circuit, comprising: a high pass filter section for allowing a high frequency component of a signal output from an audio signal output terminal (AO) of the audio signal detection circuit (DC2) to pass therethrough (1), an amplifier (2) for amplifying the signal from the high pass filter (1), a rectifier (3) for blasting and rectifying the signal from the amplifier (2), and the rectifier ( A reference sensitivity control unit 4 for adjusting the reference sensitivity of the noise force by adjusting the DC component voltage level of the signal rectified in 3), and detecting a voltage change that is changed according to the operation of the rectifier 3 to detect the audio signal. The voltage detector 5 input to the comparator input terminal CI of the detection circuit DC2 and the comparator output terminal CO of the audio signal detection circuit DC2 in response to the voltage change when the noise force increases. By signal The photodiode (PD2), the noise power detection circuit of a radio telephone, comprising a step of having an alarm unit (6) for generating an alarm to signal that the noise is greater forces to drive the.